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Showing 11 to 14 of 14 (0.033 seconds)Spelling suggestions: "subject:"term birth."" "subject:"germ birth.""
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Estudo eletrofisiológico longitudinal da via auditiva em lactentes nascidos pequenos para a idade gestacional / Longitudinal electrophysiological study of the hearing pathway in small for gestational age infantsRosanna Mariangela Giaffredo Angrisani 13 December 2013 (has links)
A adequação do peso ao nascimento é um fator de risco para atrasos de desenvolvimento. Dentre outras causas de morbidade e mortalidade, encontra-se a prematuridade e a Restrição de Crescimento Intrauterino (RCIU). O termo \"Pequeno para a Idade Gestacional\" (PIG) é utilizado muitas vezes, como indicador de RCIU, cujo feto pode ter sido submetido a agravos em diferentes momentos da gestação. A literatura aponta o PIG como risco para atraso no desenvolvimento neuropsicomotor, incluindo a linguagem. Objetivo: Acompanhar a maturação da via auditiva em lactentes nascidos PIG, comparando-os aos lactentes nascidos Adequados para Idade Gestacional (AIG) a termo e pré-termo, por meio do estudo das respostas do PEATE por estímulo click e tone burst (TB) nos seis primeiros meses de vida. Método: Estudo longitudinal, observacional de caráter multicêntrico. Foram avaliados 172 lactentes nascidos PIG e AIG, a termo e pré-termo, nos períodos neonatal, aos três e aos seis meses, por meio do PEATE com estímulo tipo click e tone burst em 0,5 kHz e 1 kHz, a 80dBnNA. Resultados: no período neonatal, os RN T/PIG não se diferenciaram dos RN T/AIG quanto às respostas do PEATE, o mesmo ocorrendo entre PT/PIG e PT/AIG. Ao se comparar o grupo T e PT/PIG, observou-se diferença entre as latências das ondas III, V e intervalos interpicos (Itpc) I-III e I-V, com latências maiores nos PT/PIG; não foram evidenciadas diferenças com TB nas frequências avaliadas. Na comparação do grupo T e PT/AIG, observou-se diferença entre as latências das ondas III, V e nos Itpc III-V e I-V e latências maiores nos PT/AIG. Não houve diferenças no TB nas frequências avaliadas. Aos três meses, não houve diferenças entre os T/PIG e T/AIG; na comparação PT/PIG e PT/AIG, houve diferenças no Itpc III-V, com latência menor no grupo PT/PIG. Não houve diferenças entre T/PIG e PT/PIG; o grupo AIG mostrou diferença entre T e PT nas latências da onda V e Itpc I-V. Na terceira coleta, aos seis meses, os T/PIG e T/AIG evidenciaram diferenças significativas entre as latências da onda III e Itpc I-III, o mesmo não ocorrendo quando se comparou PT/PIG e PT/AIG, os quais se diferenciaram somente no Itpc III-V. Ao se comparar T/PIG e PT/PIG, verificou-se diferenças relevantes somente no TB 0,5 kHz. Conclusão: Os achados do presente estudo permitiram concluir que o processo maturacional da via auditiva em lactentes nascidos PIG ocorre em diferente velocidade quando comparado ao de lactentes AIG; os PIG têm maturação acelerada, principalmente nos três primeiros meses, caracterizando desta forma um período de recuperação do ponto de vista da audição; a prematuridade influencia mais a maturação do sistema nervoso auditivo central que o fator peso ao nascer no período neonatal; a maturação ocorreu no sentido caudo-rostral nos dois grupos. O PEATE com TB em 0,5 kHz e em 1 kHz evidenciou o processo maturacional, porém não de modo tão detalhado quanto o fez com o estímulo tipo click. As crianças PIG devem ser monitoradas até pelo menos os três anos de idade / The appropriateness of weight at birth is a risk factor for developmental delays. Prematurity and intrauterine growth restriction (IUGR) are among other causes of morbidity and mortality. The term \"small for gestational age\" (SGA) is often used as an indicator of IUGR, when the fetus may have been subjected to restrictions at different periods of pregnancy. The literature points SGA as a risk for neuropsychological developmental delay, including language. Objective: to monitor the maturation of the auditory pathway in SGA infants, comparing to term and preterm appropriate for gestational age (AGA) infants, through the analysis of the ABR responses to click and tone burst stimulus in the first six months of life. Method: A longitudinal, observational and multicenter study was conducted. A total of 172 SGA and AGA infants, term and preterm, were evaluated in the neonatal period and at three and six months of age through the ABR with click and tone burst stimulus with 0.5 kHz and 1 kHz at 80dBHL. Results: in the neonatal period, the term SGA infants did not differ from term AGA infants for ABR responses. The same was observed between preterm SGA and preterm AGA infants. When comparing the term and preterm SGA groups, there was a difference between the latencies of waves III, V and interpeak intervals (lTPI) I-III and I-V, with longer latencies in preterm SGA; there were no differences with the tone burst stimuli in the analyzed frequencies. When comparing the AGA term and preterm groups, differences were observed on latencies of waves III, V and ITPI III-V and I-V, with longer latencies for preterm infants. There were no differences in the frequencies evaluated with the tone burst stimuli. At three months of age, there were no differences between the term SGA and AGA; when comparing preterm SGA and AGA, differences were found for ITPI III-V, with shorter latencies in preterm SGA. SGA term and preterm infants did not differ; there were differences between term and preterm AGA in latencies of wave V and ITPI I-V. In the third data collection, at six months of age, term SGA and AGA infants significantly differed on latencies of wave III and ITPI I-III, which did not occur when comparing preterm SGA and AGA infants, who differed only regarding ITPI III-V. Significant differences were only observed when comparing term and preterm SGA infants regarding the tone burst stimuli at 0.5 kHz. Conclusion: The findings of this study showed that the maturational process of the auditory pathway in SGA infants occurs at different speed when compared to AGA infants; SGA infants have accelerated maturation, especially in the first three months of age, thus characterizing a recovery period from the hearing standpoint; in the neonatal period, the maturation of the central auditory nervous system is more influenced by prematurity than birth weight; maturation occurred in caudo-rostral direction in the two groups. The ABR with tone burst at 0.5 kHz and 1 kHz evidenced maturational process, but not in such detail as with the click stimuli. The SGA infants should be monitored until at least three years of age
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BIRTHWEIGHT AND SUSCEPTIBILITY TO CHRONIC DISEASEIssa Al Salmi Unknown Date (has links)
The thesis examines the relationship of birthweight to risk factors and markers, such as proteinuria and glomerular filtration rate, for chronic disease in postnatal life. It made use of the Australian Diabetes, Obesity and Lifestyle Study (AusDiab). The AusDiab study is a cross sectional study where baseline data on 11,247 participants were collected in 1999-2000. Participants were recruited from a stratified sample of Australians aged ≥ 25 years, residing in 42 randomly selected urban and non-urban areas (Census Collector Districts) of the six states of Australia and the Northern Territory. The AusDiab study collected an enormous amount of clinical and laboratory data. During the 2004-05 follow-up AusDiab survey, questions about birthweight were included. Participants were asked to state their birthweight, the likely accuracy of the stated birthweight and the source of their stated birthweight. Four hundred and twelve chronic kidney disease (CKD) patients were approached, and 339 agreed to participate in the study. The patients completed the same questionnaire. Medical records were reviewed to check the diagnoses, causes of kidney trouble and SCr levels. Two control subjects, matched for gender and age, were selected for each CKD patient from participants in the AusDiab study who reported their birthweight. Among 7,157 AusDiab participants who responded to the questionnaire, 4,502 reported their birthweights, with a mean (standard deviation) of 3.4 (0.7) kg. The benefit and disadvantages of these data are discussed in chapter three. The data were analysed for the relationship between birthweight and adult body size and composition, disorders of glucose regulation, blood pressure, lipid abnormalities, cardiovascular diseases and glomerular filtration rate. Low birthweight was associated with smaller body build and lower lean mass and total body water in both females and males. In addition low birthweight was associated with central obesity and higher body fat percentage in females, even after taking into account current physical activity and socioeconomic status. Fasting plasma glucose, post load glucose and glycosylated haemoglobin were strongly and inversely correlated with birthweight. In those with low birthweight (< 2.5 kg), the risks for having impaired fasting glucose, impaired glucose tolerance, diabetes and all abnormalities combined were increased by 1.75, 2.22, 2.76 and 2.28 for females and by 1.40, 1.32, 1.98 and 1.49 for males compared to those with normal birthweight (≥ 2.5 kg), respectively. Low birthweight individuals were at higher risk for having high blood pressure ≥ 140/90 mmHg and ≥ 130/85 mmHg compared to those with normal birthweight. People with low birthweight showed a trend towards increased risk for high cholesterol (≥ 5.5 mmol/l) compared to those of normal birthweight. Females with low birthweight had increased risk for high low density lipoprotein cholesterol (≥ 3.5 mmol/l) and triglyceride levels (≥ 1.7 mmol/l) when compared to those with normal birthweight. Males with low birthweight exhibited increased risk for low levels of high density lipoprotein cholesterol (<0.9 mmol/l) than those with normal birthweight. Females with low birthweight were at least 1.39, 1.40, 2.30 and 1.47 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases respectively, compared to those ≥ 2.5 kg. Similarly, males with low birthweight were 1.76, 1.48, 3.34 and 1.70 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases compared to those ≥ 2.5 kg, respectively. The estimated glomerular filtration rate was strongly and positively associated with birthweight, with a predicted increase of 2.6 ml/min (CI 2.1, 3.2) and 3.8 (3.0, 4.5) for each kg of birthweight for females and males, respectively. The odd ratio (95% confidence interval) for low glomerular filtration rate (<61.0 ml/min for female and < 87.4 male) in people of low birthweight compared with those of normal birthweight was 2.04 (1.45, 2.88) for female and 3.4 (2.11, 5.36) for male. One hundred and eighty-nineCKD patients reported their birthweight; 106 were male. Their age was 60.3(15) years. Their birthweight was 3.27 (0.62) kg, vs 3.46 (0.6) kg for their AusDiab controls, p<0.001 and the proportions with birthweight<2.5 kg were 12.17% and 4.44%, p<0.001. Among CKD patients, 22.8%, 21.7%, 18% and 37.6% were in CKD stages 2, 3, 4 and 5 respectively. Birthweights by CKD stage and their AusDiab controls were as follows: 3.38 (0.52) vs 3.49 (0.52), p=0.251 for CKD2; 3.28 (0.54) vs 3.44 (0.54), p=0.121 for CKD3; 3.19 (0.72) vs 3.43 (0.56), p= 0.112 for CKD4 and 3.09 (0.65) vs 3.47 (0.67), p<0.001 for CKD5. The results demonstrate that in an affluent Western country with a good adult health profile, low birthweight people were predisposed to higher rates of glycaemic dysregulation, high blood pressure, dyslipidaemia, cardiovascular diseases and lower glomerular filtration rate in adult life. In all instances it would be prudent to adopt policies of intensified whole of life surveillance of lower birthweight people, anticipating this risk. The general public awareness of the effect of low birthweight on development of chronic diseases in later life is of vital importance. The general public, in addition to the awareness of people in medical practice of the role of low birthweight, will lead to a better management of this group of our population that is increasingly surviving into adulthood.
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BIRTHWEIGHT AND SUSCEPTIBILITY TO CHRONIC DISEASEIssa Al Salmi Unknown Date (has links)
The thesis examines the relationship of birthweight to risk factors and markers, such as proteinuria and glomerular filtration rate, for chronic disease in postnatal life. It made use of the Australian Diabetes, Obesity and Lifestyle Study (AusDiab). The AusDiab study is a cross sectional study where baseline data on 11,247 participants were collected in 1999-2000. Participants were recruited from a stratified sample of Australians aged ≥ 25 years, residing in 42 randomly selected urban and non-urban areas (Census Collector Districts) of the six states of Australia and the Northern Territory. The AusDiab study collected an enormous amount of clinical and laboratory data. During the 2004-05 follow-up AusDiab survey, questions about birthweight were included. Participants were asked to state their birthweight, the likely accuracy of the stated birthweight and the source of their stated birthweight. Four hundred and twelve chronic kidney disease (CKD) patients were approached, and 339 agreed to participate in the study. The patients completed the same questionnaire. Medical records were reviewed to check the diagnoses, causes of kidney trouble and SCr levels. Two control subjects, matched for gender and age, were selected for each CKD patient from participants in the AusDiab study who reported their birthweight. Among 7,157 AusDiab participants who responded to the questionnaire, 4,502 reported their birthweights, with a mean (standard deviation) of 3.4 (0.7) kg. The benefit and disadvantages of these data are discussed in chapter three. The data were analysed for the relationship between birthweight and adult body size and composition, disorders of glucose regulation, blood pressure, lipid abnormalities, cardiovascular diseases and glomerular filtration rate. Low birthweight was associated with smaller body build and lower lean mass and total body water in both females and males. In addition low birthweight was associated with central obesity and higher body fat percentage in females, even after taking into account current physical activity and socioeconomic status. Fasting plasma glucose, post load glucose and glycosylated haemoglobin were strongly and inversely correlated with birthweight. In those with low birthweight (< 2.5 kg), the risks for having impaired fasting glucose, impaired glucose tolerance, diabetes and all abnormalities combined were increased by 1.75, 2.22, 2.76 and 2.28 for females and by 1.40, 1.32, 1.98 and 1.49 for males compared to those with normal birthweight (≥ 2.5 kg), respectively. Low birthweight individuals were at higher risk for having high blood pressure ≥ 140/90 mmHg and ≥ 130/85 mmHg compared to those with normal birthweight. People with low birthweight showed a trend towards increased risk for high cholesterol (≥ 5.5 mmol/l) compared to those of normal birthweight. Females with low birthweight had increased risk for high low density lipoprotein cholesterol (≥ 3.5 mmol/l) and triglyceride levels (≥ 1.7 mmol/l) when compared to those with normal birthweight. Males with low birthweight exhibited increased risk for low levels of high density lipoprotein cholesterol (<0.9 mmol/l) than those with normal birthweight. Females with low birthweight were at least 1.39, 1.40, 2.30 and 1.47 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases respectively, compared to those ≥ 2.5 kg. Similarly, males with low birthweight were 1.76, 1.48, 3.34 and 1.70 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases compared to those ≥ 2.5 kg, respectively. The estimated glomerular filtration rate was strongly and positively associated with birthweight, with a predicted increase of 2.6 ml/min (CI 2.1, 3.2) and 3.8 (3.0, 4.5) for each kg of birthweight for females and males, respectively. The odd ratio (95% confidence interval) for low glomerular filtration rate (<61.0 ml/min for female and < 87.4 male) in people of low birthweight compared with those of normal birthweight was 2.04 (1.45, 2.88) for female and 3.4 (2.11, 5.36) for male. One hundred and eighty-nineCKD patients reported their birthweight; 106 were male. Their age was 60.3(15) years. Their birthweight was 3.27 (0.62) kg, vs 3.46 (0.6) kg for their AusDiab controls, p<0.001 and the proportions with birthweight<2.5 kg were 12.17% and 4.44%, p<0.001. Among CKD patients, 22.8%, 21.7%, 18% and 37.6% were in CKD stages 2, 3, 4 and 5 respectively. Birthweights by CKD stage and their AusDiab controls were as follows: 3.38 (0.52) vs 3.49 (0.52), p=0.251 for CKD2; 3.28 (0.54) vs 3.44 (0.54), p=0.121 for CKD3; 3.19 (0.72) vs 3.43 (0.56), p= 0.112 for CKD4 and 3.09 (0.65) vs 3.47 (0.67), p<0.001 for CKD5. The results demonstrate that in an affluent Western country with a good adult health profile, low birthweight people were predisposed to higher rates of glycaemic dysregulation, high blood pressure, dyslipidaemia, cardiovascular diseases and lower glomerular filtration rate in adult life. In all instances it would be prudent to adopt policies of intensified whole of life surveillance of lower birthweight people, anticipating this risk. The general public awareness of the effect of low birthweight on development of chronic diseases in later life is of vital importance. The general public, in addition to the awareness of people in medical practice of the role of low birthweight, will lead to a better management of this group of our population that is increasingly surviving into adulthood.
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BIRTHWEIGHT AND SUSCEPTIBILITY TO CHRONIC DISEASEIssa Al Salmi Unknown Date (has links)
The thesis examines the relationship of birthweight to risk factors and markers, such as proteinuria and glomerular filtration rate, for chronic disease in postnatal life. It made use of the Australian Diabetes, Obesity and Lifestyle Study (AusDiab). The AusDiab study is a cross sectional study where baseline data on 11,247 participants were collected in 1999-2000. Participants were recruited from a stratified sample of Australians aged ≥ 25 years, residing in 42 randomly selected urban and non-urban areas (Census Collector Districts) of the six states of Australia and the Northern Territory. The AusDiab study collected an enormous amount of clinical and laboratory data. During the 2004-05 follow-up AusDiab survey, questions about birthweight were included. Participants were asked to state their birthweight, the likely accuracy of the stated birthweight and the source of their stated birthweight. Four hundred and twelve chronic kidney disease (CKD) patients were approached, and 339 agreed to participate in the study. The patients completed the same questionnaire. Medical records were reviewed to check the diagnoses, causes of kidney trouble and SCr levels. Two control subjects, matched for gender and age, were selected for each CKD patient from participants in the AusDiab study who reported their birthweight. Among 7,157 AusDiab participants who responded to the questionnaire, 4,502 reported their birthweights, with a mean (standard deviation) of 3.4 (0.7) kg. The benefit and disadvantages of these data are discussed in chapter three. The data were analysed for the relationship between birthweight and adult body size and composition, disorders of glucose regulation, blood pressure, lipid abnormalities, cardiovascular diseases and glomerular filtration rate. Low birthweight was associated with smaller body build and lower lean mass and total body water in both females and males. In addition low birthweight was associated with central obesity and higher body fat percentage in females, even after taking into account current physical activity and socioeconomic status. Fasting plasma glucose, post load glucose and glycosylated haemoglobin were strongly and inversely correlated with birthweight. In those with low birthweight (< 2.5 kg), the risks for having impaired fasting glucose, impaired glucose tolerance, diabetes and all abnormalities combined were increased by 1.75, 2.22, 2.76 and 2.28 for females and by 1.40, 1.32, 1.98 and 1.49 for males compared to those with normal birthweight (≥ 2.5 kg), respectively. Low birthweight individuals were at higher risk for having high blood pressure ≥ 140/90 mmHg and ≥ 130/85 mmHg compared to those with normal birthweight. People with low birthweight showed a trend towards increased risk for high cholesterol (≥ 5.5 mmol/l) compared to those of normal birthweight. Females with low birthweight had increased risk for high low density lipoprotein cholesterol (≥ 3.5 mmol/l) and triglyceride levels (≥ 1.7 mmol/l) when compared to those with normal birthweight. Males with low birthweight exhibited increased risk for low levels of high density lipoprotein cholesterol (<0.9 mmol/l) than those with normal birthweight. Females with low birthweight were at least 1.39, 1.40, 2.30 and 1.47 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases respectively, compared to those ≥ 2.5 kg. Similarly, males with low birthweight were 1.76, 1.48, 3.34 and 1.70 times more likely to have angina, coronary artery disease, stroke and overall cardiovascular diseases compared to those ≥ 2.5 kg, respectively. The estimated glomerular filtration rate was strongly and positively associated with birthweight, with a predicted increase of 2.6 ml/min (CI 2.1, 3.2) and 3.8 (3.0, 4.5) for each kg of birthweight for females and males, respectively. The odd ratio (95% confidence interval) for low glomerular filtration rate (<61.0 ml/min for female and < 87.4 male) in people of low birthweight compared with those of normal birthweight was 2.04 (1.45, 2.88) for female and 3.4 (2.11, 5.36) for male. One hundred and eighty-nineCKD patients reported their birthweight; 106 were male. Their age was 60.3(15) years. Their birthweight was 3.27 (0.62) kg, vs 3.46 (0.6) kg for their AusDiab controls, p<0.001 and the proportions with birthweight<2.5 kg were 12.17% and 4.44%, p<0.001. Among CKD patients, 22.8%, 21.7%, 18% and 37.6% were in CKD stages 2, 3, 4 and 5 respectively. Birthweights by CKD stage and their AusDiab controls were as follows: 3.38 (0.52) vs 3.49 (0.52), p=0.251 for CKD2; 3.28 (0.54) vs 3.44 (0.54), p=0.121 for CKD3; 3.19 (0.72) vs 3.43 (0.56), p= 0.112 for CKD4 and 3.09 (0.65) vs 3.47 (0.67), p<0.001 for CKD5. The results demonstrate that in an affluent Western country with a good adult health profile, low birthweight people were predisposed to higher rates of glycaemic dysregulation, high blood pressure, dyslipidaemia, cardiovascular diseases and lower glomerular filtration rate in adult life. In all instances it would be prudent to adopt policies of intensified whole of life surveillance of lower birthweight people, anticipating this risk. The general public awareness of the effect of low birthweight on development of chronic diseases in later life is of vital importance. The general public, in addition to the awareness of people in medical practice of the role of low birthweight, will lead to a better management of this group of our population that is increasingly surviving into adulthood.
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